Publications funded by the NSF project ECCS-0835847


João P. Hespanha

This document includes links to several papers based upon research funded by the NSF project "Infinite-Dimensional Stochastic Hybrid Systems: A Unified Framework for Distributed Control with Limited and Disrupted Communication." The Principal Investigator (PI) for this project is João P. Hespanha.

The papers are in PDF or compressed (gzip) postscript form. In case of difficulties, please send me an email. Slides are available for many of the conference papers. Please let us know if would like us to post a specific presentation. Technical reports are available here.

This material is based upon work supported by the National Science Foundation under Grant No. ECCS-0835847. Any opinions, findings and conclusions or recomendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation (NSF).


Topics

1. Switched and Hybrid Systems
3. Supervisory Control

4. Embedded and Networked Control Systems
8. Distributed Control and Multi-agent Systems
17. Power Systems

18. Biology

19. Other


1. Switched and Hybrid Systems

[7] D. Antunes, J. Hespanha, C. Silvestre. Stochastic Hybrid Systems with Renewal Transitions: Moment Analysis with Applications to Networked Control Systems with Delays. SIAM J. Contr. Optimization, 51(2):1481—1499, Feb. 2013. [bibtex:AntunesHespanhaSilvestreFeb13b] [pdf]
[11] D. Antunes, J. Hespanha, C. Silvestre. Volterra Integral Approach to Impulsive Renewal Systems: Application to Networked Control. IEEE Trans. on Automat. Contr., 57:607—619, Mar. 2012. [bibtex:AntunesHespanhaSilvestreMar12] [pdf]
[15] D. Antunes, J. Hespanha, C. Silvestre. Impulsive Systems Triggered by Superposed Renewal Processes. In Proc. of the 49th Conf. on Decision and Contr., Dec. 2010. [bibtex:AntunesHespanhaSilvestreDec10] [pdf]
[17] D. Antunes, J. Hespanha, C. Silvestre. Stochastic Hybrid Systems with Renewal Transitions. In Proc. of the 2010 Amer. Contr. Conf., June 2010. [bibtex:AntunesHespanhaSilvestreJun10]
See also [9], [12], [19].

3. Supervisory Control

[5] P. Tesi, G. Battistelli, J. Hespanha, E. Mosca. Model-free Adaptive Switching Control of Time-Varying Plants. IEEE Trans. on Automat. Contr., 58(5):1208—1220, May 2013. [bibtex:TesiBattistelliHespanhaMoscaMay13] [pdf]

4. Embedded and Networked Control Systems

[12] D. Antunes, J. Hespanha, C. Silvestre. Stochastic Networked Control Systems with Dynamic Protocols. In Proc. of the 2011 Amer. Contr. Conf., June 2011. [bibtex:AntunesHespanhaSilvestreJun11] [pdf]
[19] D. Antunes, J. Hespanha, C. Silvestre. Control of Impulsive Renewal Systems: Application to Direct Design in Networked Control. In Proc. of the 48th Conf. on Decision and Contr., Dec. 2009. [bibtex:AntunesHespanhaSilvestreDec09] [pdf]
See also [7], [11], [15], [17].

8. Distributed Control and Multi-agent Systems

[3] M. Nip, J. Hespanha, M. Khammash. Direct Numerical Solution of Algebraic Lyapunov Equations For Large-Scale Systems Using Quantized Tensor Trains. In Proc. of the 52nd Conf. on Decision and Contr., Dec. 2013. [bibtex:NipHespanhaKhammashDec13] [pdf]

17. Power Systems

[1] L. Torres, J. Hespanha, J. Moehlis. Synchronization of Identical Oscillators Coupled through a Symmetric Network with Dynamics: A Constructive Approach with Applications to Parallel Operation of Inverters. IEEE Trans. on Automat. Contr., 60(12):3226—3241, Dec. 2015. [bibtex:TorresHespanhaMoehlisDec2015] [pdf]
[10] L. Torres, J. Hespanha, J. Moehlis. Power Supplies Dynamical Synchronization Without Communication. In Proc. of the Power & Energy Society 2012 General Meeting, July 2012. [bibtex:TorresHespanhaMoehlisJul12] [pdf]

18. Biology

[2] F. Pour Safaei, K. Roh, S. Proulx, J. Hespanha. Quadratic Control of Stochastic Hybrid Systems with Renewal Transitions. Automatica, 50(11):2822—2834, Nov. 2014. [bibtex:SafaeiRohProulxHespanhaNov14] [pdf]
[4] H. Sivakumar, J. Hespanha. Towards modularity in biological networks while avoiding retroactivity. In Proc. of the 2013 Amer. Contr. Conf., June 2013. [bibtex:SivakumarHespanhaJun13] [pdf]
[6] K. Roh, F. Pour Safaei, J. Hespanha, S. Proulx. Evolution of transcription networks in response to temporal fluctuations. Evolution, 67(4):1091—1104, Apr. 2013. [bibtex:RohSafaeiHespanhaProulxApr13] [pdf]
[8] M. Nip, J. Hespanha, M. Khammash. A Spectral Methods-Based Solution of the Chemical Master Equation for Gene Regulatory Networks. In Proc. of the 51st Conf. on Decision and Contr., Dec. 2012. [bibtex:NipHespanhaKhammashDec12] [pdf]
[9] F. Pour Safaei, J. Hespanha, S. Proulx. Infinite Horizon Linear Quadratic Gene Regulation in Fluctuating Environments. In Proc. of the 51st Conf. on Decision and Contr., Dec. 2012. [bibtex:SafaeiHespanhaProulxDec12] [pdf]
[13] A. Singh, J. Hespanha. Approximate Moment Dynamics for Chemically Reacting Systems. IEEE Trans. on Automat. Contr., 56(2):414—418, Feb. 2011. [bibtex:SinghHespanhaFeb11] [pdf]
[14] Y.-B. Zhao, J. Kim, J. Hespanha. Hybrid Moment Computation Algorithm for Biochemical Reaction Networks. In Proc. of the 49th Conf. on Decision and Contr., Dec. 2010. [bibtex:ZhaoKimHespanhaDec10] [pdf]
[16] A. Singh, J. Hespanha. Stochastic hybrid systems for studying biochemical processes. Phil. Trans. R. Soc. A, 368(1930):4995—5011, Nov. 2010. [bibtex:SinghHespanhaNov10] [pdf]
[18] P. Danzl, J. Hespanha, J. Moehlis. Event-based minimum-time control of oscillatory neuron models: Phase randomization, maximal spike rate increase, and desynchronization. Biological Cybernetics, 101(5—6):387—399, Dec. 2009. [bibtex:DanzlHespanhaMoehlisDec09] [pdf]
See also [3].

19. Other

[20] J. Hespanha. Linear Systems Theory. Princeton Press, Sep. 2009. ISBN13: 978-0-691-14021-6. Information about the book, an errata, and exercises are available at http://www.ece.ucsb.edu/~hespanha/linearsystems/. [bibtex:Hespanha09] [pdf] [pdf] [pdf] [pdf]
See also [3].


This file was generated on 3/31/2021 using the perl script "bib2web" (version 1.4, dated 29/03/2016) written by João Pedro Hespanha